DE102016209959B3 - Device for measuring the oil level in an internal combustion engine - Google Patents

Abstract

Oil dipstick guide tube for an internal combustion engine, the first end of oil leading to an oil pan of the internal combustion engine is connectable and at the second end of an oil dipstick is inserted, wherein at the second end, on the inner diameter of a substantially axially extending to the oil dipstick guide tube groove is formed, wherein the second end is a separate component and pluggable with a guide tube connectable. Due to the inventive design of the oil dipstick guide tube incorrect measurements of the oil level are avoided while cost-effective and easy production.

Description

The invention relates to a device for measuring the oil level in an internal combustion engine with the features of the preamble of patent claim 1.

Due to the air column in an oil dipstick guide tube, the actual oil level present is corrupted when measured with an oil dipstick. There is a deviation between the actual oil level in the oil pan and the oil level in the dipstick guide tube by the amount of height that the volume of air displaced in the dipstick guide tube has due to the dipstick inserted into the dipstick guide tube. In practice, therefore, a significantly lower oil level is displayed, since the conditions of the pipe cross section to the oil pan cross section are particularly unfavorable here. 10 mm oil level in the oil pan is about 1 liter of engine oil. As a result, when oil level is measured, there is less engine oil in the sump than is actually present. Now if a driver or a mechanic check the oil level, read off a minimum level on the oil dipstick and refill engine oil, this leads to too much oil in the oil sump. This leads disadvantageously to oil panes, too high oil consumption of the internal combustion engine up to the risk of damage to the internal combustion engine.

For this reason, in the prior art, a small bore is often inserted in an oil dipstick guide tube at the top end where the oil dipstick is inserted, which is just covered by a sealing ring of the oil dipstick in the closed state. This bore can be performed for example by laser drilling or by punching from the inside out through an imported tool. This lasered or punched hole must then be smoothed to prevent damage to or damage to the oil dipstick seal when inserted after a measurement. This means that when punching at least two machine tools (punching tool and smoothing tool and possibly expansion tool for end stop of the oil dipstick) are required, which require two necessary clamping during machining. When lasered hole increases the number of machine tools (laser, smoothing tool and possibly expansion tool for end stop of the oil dipstick) to three and the number of necessary clamping during processing also to three.

In order to get the above-mentioned problem of incorrect measurement under control, is therefore in the German patent application DE 103 15 413 A1 , from which the present invention proceeds, proposed an oil dipstick rod, at one end of which a closure element and a handle are provided, wherein the closure element has a largely aligned in the direction of the oil dipstick through hole, which is closed by the handle. By doing so, the compressed air in the oil dipstick guide tube can escape, and misjudgment of the oil level is avoided.

The technical environment of the oil level measurement is further, for example, the Swiss patent CH 578 726 A5 and the European patent application EP 2 937 657 A1 pointed.

From the German publication DE 33 34 513 A1 For example, it is known to manufacture a valve sleeve of a rotary valve made by applying a tube to a cylindrical mandrel having axially extending projections. The tube is then pressed in a die on the mandrel, whereby on the inner surface of the tube the projections corresponding longitudinal grooves are generated.

Next is from the German Reich Patent No. DE 301 272 A a method for producing ribs and grooves in pipes, which is characterized in that a mandrel with a ribbed head is passed through the hot workpiece.

All of the above-mentioned measures for avoiding a measurement error in the measurement of the oil level in the oil pan of an internal combustion engine are expensive and expensive to manufacture.

Object of the present invention is to present a low-cost oil dipstick guide tube, with the problems of incorrect measurement of the oil level can be avoided in an oil pan of an internal combustion engine.

This object is solved by the features in the characterizing part of patent claim 1.

According to the invention, a vent groove extending axially relative to the oil dipstick guide tube is formed in the second end of the dipstick guide tube. Through this groove can advantageously escape the air column on at least one O-ring, or sealing ring to the outside. If the oil dipstick at the end stop, he has according to the invention pushed no significant air column down. The oil level in the oil dipstick guide tube and in the oil sump is identical, there is no erroneous measurement. Further, the second end is designed as a separate component, which is pluggable with a guide tube in a simple manner to an oil dipstick guide tube connectable. Thus, as a guide tube, a largely unprocessed, inexpensive semi-finished product such. As a steel or light metal or plastic pipe can be used.

The embodiment according to claim 2 is a preferred embodiment for realizing an end stop for the oil dipstick.

With the embodiment according to claim 3 is achieved that in a fully inserted oil dipstick, the oil dipstick guide tube absolute tightness is achieved and thus environmentally harmful emissions are safely avoided.

The cross section of the groove according to claim 4 is a particularly preferred cross-sectional area.

The preparation of the second end of the oil dipstick guide tube according to claim 5 is particularly inexpensive.

The materials used according to claim 6 are particularly preferred, it can be used as metal, for example, aluminum or magnesium and as a plastic, for example, fiber-reinforced polyamide (PA).

In the following the invention is explained in more detail with reference to four figures.

1 shows a schematic section through an inventive oil dipstick guide tube and an oil pan for an internal combustion engine.

2 shows an enlarged detail 1 ,

3a shows a step through a separate second end of the oil dipstick guide tube according to the invention and a guide tube.

3b shows a step through the joined invention oil dipstick guide tube.

1 shows a schematic section through an oil dipstick guide tube 1 for an internal combustion engine, not shown, whose first end 2 Oil leading with an oil pan 3 the internal combustion engine is connectable and at its second end 4 an oil dipstick 5 is insertable. According to the invention is at the separate, pluggable second end 4 at the inner diameter a largely axially to the oil dipstick guide tube 1 extending groove 6 formed radially outward. Furthermore, the second end 4 designed as a separate component and with a guide tube pluggable to the oil dipstick guide tube 1 connectable. In the oil pan 3 is a minimum oil level with min. and a maximum oil level with max. shown schematically. A disturbing component 8th between the dipstick guide tube 1 and the oil pan 3 is schematically drawn to exemplify that an oil dipstick guide tube 1 in the rarest cases directly to the oil sump 3 can be arranged.

2 shows an enlarged detail 1 , in the 1 marked dashed oval. 2 shows a three-dimensional view of the pluggable, separate second end 4 of the oil dipstick guide tube 1 , The oil dipstick 5 is not in the oil dipstick guide tube in the enlarged view 1 inserted. In the present embodiment, the second end 4 three grooves according to the invention 6 on. A sealing ring 7 of the oil dipstick 5 is located in a fully inserted position.

In a preferred embodiment, the second end 4 at least in the area of the groove 6 a larger inner diameter than the remaining oil dipstick guide tube 1 , Next extends the groove 6 axially not so far into the oil dipstick guide tube 1 like the sealing ring 7 is placed in its inserted end position. This ensures in the fully imported state of the oil dipstick 5 an absolute tightness, so that no harmful emissions can escape into the environment.

A cross section of the groove 6 is preferably between 0.5 and 5 mm ² , more preferably between 2 and 3 mm ² .

Particularly preferred is the separate, pluggable second end 4 of the dipstick guide tube 1 manufactured as an injection molded component. This can be made of metal, for example aluminum or magnesium or of plastic, for example fiber-reinforced polyamide (PA).

As a semi-finished for the guide tube, for example, a seamless drawn steel tube can be used. In further embodiments, a seamless light metal tube, such. As an aluminum pipe or a low-cost plastic pipe are used.

The 3a and 3b show the manufacturing process for manufacturing an oil dipstick guide tube according to the invention 1 ,

3a shows a section through an initial state, before the joining of the guide tube with the separate, preferably designed as an injection molded component separate second end 4 to an oil dipstick guide tube according to the invention 1 , In the present embodiment, the second end 4 three grooves 6 two of which are visible. In further embodiments, only one groove 6 or more grooves 6 be provided.

3b shows a section through a finished joined invention invention oil dipstick guide tube 1 ,

Thus, a highly efficient venting of the oil dipstick guide tube is 1 shown, with a very cost-effective, simple production.

Advantageously, the venting of the oil dipstick guide tube 1 over the groove according to the invention 6 possible. Furthermore, no chip-removing processing is necessary. The insertion of the groove 6 is inexpensive without an additional process step in injection molding possible. This leads advantageously to a reduction in the complexity of the manufacturing process over the currently known prior art.

LIST OF REFERENCE NUMBERS

1

Dipstick guide tube

2

first end

3

oil pan

4

second end

5

dipstick

6

groove

7

seal

8th

component

Claims (6)

Device for measuring the oil level in an internal combustion engine with an oil dipstick guide tube ( 1 ), whose first end ( 2 ) Oil leading with an oil pan ( 3 ) of the internal combustion engine is connected and at its second end ( 4 ) an oil dipstick ( 5 ), characterized in that at the second end ( 4 ), at the inner diameter at least one substantially axially to the oil dipstick guide tube ( 1 ) extending groove ( 6 ), wherein the second end ( 4 ) is a separate component and pluggable connected to the remaining oil dipstick guide tube. Device according to claim 1, characterized in that the second end ( 4 ) at least in the region of the groove ( 6 ) has a larger inner diameter than the remaining oil dipstick guide tube. Device according to claim 1 or 2, wherein the oil dipstick has a radially outer circumferential sealing ring which is inserted into the oil dipstick guide tube, characterized in that the groove ( 6 ) does not extend as far axially as the sealing ring ( 7 ) into the second end ( 4 ) can be inserted. Device according to one of the claims 1 to 3, characterized in that the groove ( 6 ) has a cross section between 0.5 mm ² and 5 mm ² . Device according to one of the claims 1 to 4, characterized in that the pluggable second end ( 4 ) is an injection molded component. Device according to claim 5, characterized in that the injection-molded component is made of a metal or a plastic.

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